PVA-PAMPS-PAA三元互穿网络型水凝胶的合成及其性能研究

以2-丙烯酰胺基-2-甲基丙磺酸(AMPS)、丙烯酸(AA)以及聚乙烯醇(PVA)为原料,制备了PVA-PAMPS-PAA三元互穿网络型(T-IPN)水凝胶.红外分析表明,PVA与PAA以及PAMPS之间形成了较强的氢键,使得PVA分子上的C—O伸缩震动吸收峰移向了低波数处.X射线衍射以及电镜分析表明,当PVA用量较低时,PVA能均匀的穿插于凝胶网络中,形成完善的互穿网络结构,当PVA用量过高时,部分的PVA结晶而使得凝胶出现相分离.研究了该三元互穿网络型水凝胶的溶胀性能,结果表明,该水凝胶的平衡溶胀比在200至340之间,并且随着AA以及AMPS用量的增加,凝胶的溶胀速率以及平衡溶胀比均升高.该三元互穿网络型水凝胶在酸性溶液中和在碱性溶液中表现出截然不同的消溶胀性能;并且随着溶液pH的升高,凝胶在pH=9.0附近出现体积突变,表现出pH敏感性.通过研究T-IPN水凝胶的抗压缩性能发现,利用线型高分子、柔性高分子网络以及刚性高分子网络制备的三元互穿网络型水凝胶能在高溶胀比下保持较高的强度.溶胀比为180的T-IPN水凝胶,其最大抗压缩强度可达12.1 MPa.进一步研究发现,凝胶的组成以及溶胀比均对凝胶的抗压缩强度和压缩应变均存在较大的影响.     

温度和pH敏感P(NIPA-co-AA)/粘土复合水凝胶的辐射制备与表征

以N-异丙基丙烯酰胺(NIPA)作为温敏性聚合单体,丙烯酸(AA)为pH敏感性单体,有机粘土为改性剂,采用~(60)Co-γ射线为辐射源,辐射合成了P(NIPA-co-AA),粘土复合水凝胶,研究了粘土的加入对水凝胶溶胀率、温度及pH敏感性和压缩性能的影响.结果表明,P(NIPA-co-AA)/粘土复合水凝胶的溶胀性能优于P(NIPA-co-AA)水凝胶,平衡溶胀率(SR)明显提高;且复合水凝胶仍表现出明显的温度和pH敏感性;粘土的加入提高了水凝胶的压缩强度、最大压缩力和压缩屈服力等力学性能,当粘土含量为15%时,P(NIPA-co-AA)/粘土复合水凝胶的压缩强度为P(NIPA-co-AA)共聚水凝胶的2.4倍,最大压缩力为P(NIPA-co-AA)的2.1倍.     

活性炭复合改善聚丙烯酸凝胶耐盐性及其溶胀机理

在活性炭(Ac)存在的情况下通过自由基溶液聚合,以过硫酸铵为引发剂,N,N′-亚甲基双丙烯酰胺为交联剂,制备了活性炭复合聚丙烯酸凝胶(PAA/AC)。 考察了凝胶在蒸馏水、生理盐水和不同pH值缓冲溶液中的平衡溶胀比以及溶胀动力学,结果表明,活性炭能有效提高凝胶的平衡溶胀比,在实验设计的pH值范围内复合凝胶具有比PAA凝胶更高的平衡溶胀比,蒸馏水和生理盐水中PAA/AC凝胶的平衡溶胀比分别可达到303和60 g/g,约为PAA凝胶的2.4倍。 讨论了凝胶的溶胀机理,结果表明,活性炭成分的介入破坏了聚合物链段之间的聚集态结构,减弱了聚合物链段之间的相互作用,提高了凝胶的溶胀能力。 示差扫描量热仪测定复合前后凝胶的玻璃化转变温度,扫描电子显微镜观察了复合前后凝胶的断面网络结构,结果进一步表明活性炭复合后聚合物链段之间的作用力减弱。     

聚乙烯醇硫酸钾水凝胶电机械化学行为研究

通过将交联聚乙烯醇硫酸酯化的方法制备了一种新型电刺激响应性聚乙烯醇硫酸钾(PVSK)智能水凝胶,并探讨了溶液离子强度和pH对PVSK水凝胶的溶胀吸水率、机械性能以及电机械化学行为的影响.结果表明,制备的PVSK水凝胶的平衡溶胀比随NaCl溶液离子强度的增大而减小,在pH2.39～10.83范围内基本不受溶液pH的影响;经不同离子强度和pH的NaCl溶液充分溶胀的PVSK水凝胶具有良好的机械性能,在非接触的直流电场作用下,该水凝胶向电场负极弯曲,凝胶的弯曲速度和弯曲偏转量随外加电场强度的增加而增大,随NaCl溶液离子强度的增大出现临界最大值,但不随溶液pH(2.08～10.53)的改变而改变;在循环电场作用下,PVSK水凝胶的电机械化学行为具有良好的可逆性.     

N-(2-磺酸基苯甲基)壳聚糖的合成、表征及其水凝胶的pH敏感性

通过两步反应合成了水溶性的N-(2-磺酸基苯甲基)壳聚糖(SBCS), 用IR, 1H NMR和UV-Vis谱对产物的结构进行了表征. 用胶体滴定法测定了N上2-磺酸基苯甲基的取代度. 以戊二醛为交联剂制备了N-(2-磺酸基苯甲基)壳聚糖水凝胶(SBCSG), 考察了凝胶在不同pH值缓冲溶液中的溶胀行为. 实验结果表明, SBCSG溶胀度随着凝胶交联度的增大而减小. 在碱性介质中SBCSG的溶胀度显著增大, 而在酸性介质中溶胀度显著减小, 在pH= 5.0缓冲液中的溶胀度达到最小值. SBCSG在碱性介质中的溶胀度随着侧链N上2-磺酸基苯甲基取代度增大而增大. 在pH=7.4的人工肠液和pH=1.0的人工胃液中SBCSG的溶胀-收缩具有可逆性, 显示出良好的pH敏感性. 有望作为pH敏感口服结肠定位给药系统药物载体.     

N-异丙基丙烯酰胺-丙烯酰胺热敏凝胶的溶胀特性

制备并表征了N-异丙基丙烯酰胺-丙烯酰胺热敏凝胶(NIPAm-Am),研究了单体配比、引发剂、交联剂用量和温度对其溶胀特性的影响。结果表明：NIPAm-Am热敏凝胶是由亲水和疏水基团组成的非晶高聚物。mAm／mNIPAm越大,凝胶的平衡溶胀率越大;增加交联剂的用量,凝胶的溶胀率减小,当引发剂的质量分数为0．008时溶胀率达最大值;温度的增加会使凝胶的溶胀率减小,在相转变温度时,溶胀率的变化最大。     

PVP-P(AAEA-co-AA)/纳米金温度-电场双重敏感性凝胶的制备及性能

采用溶液聚合法以聚乙烯吡咯烷酮(PVP)为第二网络,以丙烯酸(AA)、4-乙酰基丙烯酰乙酸乙酯(AAEA)为单体制备PVP-P(AAEA-co-AA)半互穿水凝胶(PVP-SIPN),再通过原位还原法合成PVP-P(AAEA-co-AA)/纳米金复合凝胶(GNPs gel),探讨凝胶的溶胀/消溶胀性能、温度及电场敏感性。研究表明,随PVP用量的增加PVP-SIPN溶胀速率减小,平衡溶胀度降低;当PVP用量低于5%凝胶保水率随PVP用量增加而降低,高于5%时保水率随PVP用量增加而增加;PVP-SIPN相转变温度升高,且凝胶温度敏感性随之减弱。纳米金的加入导致凝胶平衡溶胀度从82.3g/g降低至22.66g/g,在电场作用下,外界离子浓度小于0.2mol/L时,GNPs gel发生溶胀;反之,消溶胀,凝胶消溶胀速率随外界电压增大而增大。     

聚乙烯醇/丙烯酸共聚物水凝胶的制备及溶胀性

制备了具有pH敏感性的聚乙烯醇(PVA)/丙烯酸(AA)共聚物水凝胶,研究了PVA与AA之间配比、交联剂、引发剂用量对凝胶转化率的影响,对水凝胶的溶胀行为和pH敏感性也进行了详细研究.实验表明PVA与AA的质量比为(1∶9)~(3∶7)之间时,引发剂和交联剂分别为PVA和AA总量的0.2%和0.3%时,凝胶转化率高.随着水溶液pH值从3增加到9,凝胶的溶胀比也相应的增加,表现出明显的pH敏感性.     

温度和pH双敏性PVME/CMCS水凝胶辐射交联制备及其性能

以聚甲基乙烯基醚(PVME)和羧甲基壳聚糖(CMCS)为原料, 采用电子束辐照交联方法制备聚甲基乙烯基醚/羧甲基壳聚糖(PVME/CMCS)水凝胶, 研究了温度、pH值、CMCS含量等对PVME/CMCS水凝胶溶胀度的影响, 同时以5-氟尿嘧啶(5-Fu)作模型药物, 初步探讨了凝胶药物释放性能. 结果表明, 辐射剂量在20—40 kGy时, 凝胶分数随辐射剂量的增加而快速增加, 辐射40 kGy以后趋于平衡. 在相同辐射剂量下, 随着体系中CMCS含量的增加, 凝胶分数反而减少. 该水凝胶具有一定的温度和pH敏感性, 其低临界溶解温度(LCST)在35 ℃左右, 并且在相同时间内和25及37 ℃下的溶胀反复可逆, 表现出较快的响应性. pH<3.0和pH>5.0时, 溶胀度较大; pH值为3.0~5.0时, 凝胶网络由于静电力收缩, 溶胀度较小. CMCS含量的增加和辐射剂量的减小均可提高凝胶载药量. 药物释放时间可通过改变体系中CMCS的含量和辐射剂量来调节.     

疏水改性pH敏感水凝胶P(HEMA-NaAA-DiAC_(16))的制备及其溶胀性能

以二烯丙基胺和1-溴代十六烷为原料合成了疏水单体N,N-二烯丙基正十六烷胺(DiAC16),用FTIR、1H NMR和元素分析对其进行了表征。以2-羟基甲基丙烯酸乙酯(HEMA)、丙烯酸(AA)和N,N-二烯丙基正十六烷胺为共聚单体,N,N'-亚甲基双丙烯酰胺(BIS)为交联剂,十二烷基硫酸钠(SDS)为表面活性剂,过硫酸铵-四甲基乙二胺(TMEDA)为引发体系,制得的疏水改性智能水凝胶P(HEMA-NaAA-DiAC16)具有pH敏感特性。研究了DiAC16、NaAA、BIS用量及pH值和离子强度等因素对水凝胶P(HEMA-NaAA-DiAC16)溶胀性能的影响。结果表明,凝胶在水中的平衡溶胀率(为78.9~163.91),随DiAC16、BIS用量的增加和NaAA用量的减少而减少,n值(一般在0.5~1.0之间)随DiAC16、NaAA和BIS用量的增加而增加,为非Fickian扩散。水凝胶的吸水溶胀是放热过程,ΔH m在-2.09~-3.64 kJ/mol,ΔH m的绝对值随DiAC16用量的减少、NaAA用量和BIS用量的增加而增大,聚合物与水的亲和力逐渐增强。随离子强度的增强,平衡溶胀率下降。     

RADIATION SYNTHESIS AND CHARACTERIZATION OF POLY(AA-co-NVP)/CLAY HYDROGELS

The pH-sensitive P(AA-co-NVP)/clay hydrogels were prepared with the monomers of acrylic acid(AA)and N-vinyl-2-pyrrolidone(NVP)based onγ-ray irradiation technique.The influence of pH values of buffer solutions and contents of clay and NVP on the equilibrium swelling ratio(SR)and compressive properties of the hydrogels was investigated in detail.The results of swelling property tests showed that,with the increase of clay content,the SR of hydrogels increases in the same buffer solution,and the SR of hydrog...     

Synthesis and Characterization of Hydrogels Based on Gamma Radiation Copolymerization of N‐isopropylacrylamide and Ethylene Glycol Dimethacrylate Monomers

Hydrogels based essentially on N‐isopropylacrylamide (NIPAAm) and different ratios of ethylene glycol dimethacrylate (EGDMA) monomer were synthesized by gamma radiation copolymerization. The thermal decomposition behavior of NIPAAm/EGDMA hydrogels was determined by thermogravimetric analysis (TGA). The effect of temperature and pH on the swelling behavior was also studied. The results showed that the ratio of EGDMA in the comonomer feeding solution has a great effect on the yield product, gel fraction and water content in the final hydrogel. In this regard, it was observed that the increase of EGDMA ratio decreased these properties. The TGA study showed that all the compositions of NIPAAm/EGDMA hydrogels displayed higher thermal stability than the hydrogel based on pure PNIPAAm hydrogel. The swelling kinetics in water showed that pure PNIPAAm and NIPAAm/EGDMA hydrogels reached equilibrium after 6 h. However, NIPAAm/EGDMA hydrogels show swelling in water lower than pure PNIPAAm. The results showed that the swelling character of pure PNIPAAm and NIPAAm/EGDMA hydrogels was affected by the change in temperature within the temperature range 25–40°C, and showed a reversible change in swelling in the pH range 4–7 depending on composition.     

A Mathematical Study on Effect of 2-Hydroxyl Ethyl Acrylate on Controlled Drug Diffusion from Smart Hydrogels Based on Poly(acrylamide-co-hydroxy ethyl acrylate-co-acrylic acid)

A series of poly (AM-co-HEA-co-AA) hydrogels have been synthesized and characterized by varying 2-hydroxy ethyl acrylate (HEA) content in the range of 0–16.22% in feed. The swelling ratio of resulting hydrogels was drastically decreased 10 times, i.e., from 101.12 to 9.23 in an almost linear fashion; but the dimensional stability of these hydrogels was increased significantly from 5 to 46 days with increasing HEA content. The hydrogels exhibited Smart nature in varying pH (2–10), temperature (15–65°C), ionic strength of NaCl solution (0.1M-1.5M), and different cation chloride salt solution having same ionic strength (0.1M). The swelling mechanism was shifted from non-Fickian to Fickian (at pH 2–7), super case to non-Fickian (at pH 10) with increasing HEA content. The controlled release of model drug (salicylic acid) from these hydrogels was investigated using early-time, late-time and Etters diffusion models and compared with the experimental data. It was observed that early model doesn't fit, but Etter and late-time model fitted excluding the initial phase. However, it was also observed that with increasing HEA content, the applicability of Etter's model improved, and for 16.22% HEA containing hydrogel Etters model was fitted in the full range, indicating that by varying hydrogel composition, the diffusion characteristics can be altered.     

Preparation and characterization of temperature- and pH-sensitive hemicellulose-containing hydrogels

In this work, a hemicellulose-containing hydrogel was synthesized. As the first step, a temperature- and pH-sensitive copolymer was synthesized from itaconic acid and N-isopropylacrylamide (NIPAAm). Then the hydrogel was prepared by reacting the copolymer with acylated hemicellulose and polyvinyl alcohol. The morphology, compressive strength, thermal stability, swelling/deswelling behavior, drug-release behavior performances of the hydrogels were investigated. The lower critical solution temperature of the hydrogels varied in 34–44°C when the NIPAAm and itaconic acid mass ratios ranged in 100/0–90/10. Both temperature and pH had a significant influence on equilibrium swelling ratio of hydrogels. The equilibrium swelling ratio increased with pH, but decreased with temperature. Cytocompatibility assay demonstrated that this hemicellulose-containing hydrogel was biocompatible. The release process of salicylic acid suggested that this hydrogel had a potential use in controlled drug release.     

Preparation of a novel pH-responsive silver nanoparticle/poly(HEMA-PEGMA-MAA) composite hydrogel

In this paper, series of novel pH-responsive silver (Ag) nanoparticle/poly(2-hydroxyethyl methacrylate (HEMA)-poly(ethylene glycol) methyl ether methacrylate (PEGMA)-methacrylic acid (MAA)) composite hydrogel were successfully prepared by in situ reducing Ag⁺ ions anchored in the hydrogel by the deprotonized carboxyl acid groups. X-ray diffraction (XRD), UV-vis spectrophotometry, transmission electron microscopy (TEM) and electric conductivity tests were used to characterize the composite system. It was found that the size and morphology of the reduced Ag nanoparticles in the composite hydrogels could be changed by loading the Ag⁺ ions at various swelling ratios of hydrogel. Moreover, compared to the pure poly(HEMA-PEGMA-MAA) hydrogel, not only did the Ag nanoparticle/poly(HEMA-PEGMA-MAA) composite hydrogels exhibit much higher swelling ratio and faster deswelling rate, but also higher pH switchable electrical properties upon controlling the interparticle distance under pH stimulus. The pH responsive nanocomposite hydrogel reported here might be a potentially smart material in the range of applications including electronics, biosensors and drug-delivery devices.     

Radiation preparation and characterization of pH-sensitive hydrogel of acrylic acid/cyclodextrin based copolymer

A β-cyclodextrin (β-CD) based monomer (MAH-β-CD) containing vinyl and carboxyl functional groups was synthesized by reaction of β-CD with maleic anhydride (MAH). A novel hydrogel, poly(AAc-co-MAH-β-CD) with pH and ionic strength sensitivities, was prepared by irradiating the aqueous solution mixture of acrylic acid (AAc) and MAH-β-CD with electron beam. The effect of the feed ratio of the components and irradiation dose on the swelling and deswelling properties of the hydrogel was studied, respectively, the effect of pH and ionic strength on the swelling ratio was determined. Experimental results showed that these copolymer hydrogels did not show any noticeable change in swelling ratio at lower pH range (pH 1–3). However they showed an abrupt increase in swelling ratio at the range of pH 3–6, due to the ionization of carboxyl groups. Fourier transform infrared (FT-IR) spectrometer was applied in the attenuated total reflectance (ATR) mode for analyzing the structure change of the hydrogels after the treatment of different pH buffer solutions.     

Synthesis and characterization of biodegradable pH-sensitive hydrogels based on poly(?-caprolactone), methacrylic acid, and poly(ethylene glycol)

In this work, a novel biodegradable pH-sensitive hydrogel based on poly(?-caprolactone) (PCL), methoxpoly(ethylene glycol) (MPEG) and methacrylic acid (MAA) was prepared by UV-initiated free radical polymerization. The resulting macromonomers and hydrogels were characterized by FTIR and/or ¹H NMR. Swelling behaviour and pH sensitivity of the hydrogels were studied in detail. With increase in pH of aqueous medium from 1.2 to 7.2, swelling ratio of the hydrogels increased accordingly. The hydrolytic degradation behaviour was also investigated. The prepared biodegradable pH-sensitive hydrogel based on PCL, MPEG, and MAA might have great potential application in smart drug delivery system.     

Synthesis of poly(ethylene glycol)‐based hydrogels and their swelling/shrinking response to molecular recognition

To synthesize the novel molecular‐ and pH‐stimulus‐responsive hydrogel, we prepared poly(ethylene glycol)‐based hydrogel containing ionic groups. We evaluated the fundamental swelling/shrinking properties of the hydrogels synthesized by various conditions. Decreasing the molecular weight of a crosslinker provided the increasing of the equilibrium swelling ratio. Also, the equilibrium swelling ratio was changed by the introduction of functional ionic monomers and its compositions. Furthermore, the swelling/shrinking behaviors of the hydrogels were affected by the environmental condition of aqueous solution, in fact the hydrogels were considerably shrunk (to one‐fifth volume) using a di‐ionic solute in the aqueous solution through the ionic interactions between the hydrogel and the solutes. Additionally, the specific shrinking to diamine compounds was also observed in response to pH change. These results clearly show the swelling/shrinking responsibility of the hydrogels toward the molecular recognitions and its pH conditions. © 2013 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2013, 51, 3153–3158     

Synthesis of cross-linked carboxymethyl cellulose and poly (2-acrylamido-2-methylpropane sulfonic acid) hydrogel for sustained drug release optimized by Box-Behnken Design

This research aims to fabricate and characterize chemically crosslinked CMC/PVP-co-poly (AMPS) based hydrogel for the sustained release of model drug metoprolol tartrate through the free radical polymerization technique. Box-Behnken Design was used to optimize CMC/PVP-co-poly (AMPS) hydrogel by varying the content of reactants such as; polymers (CMC and PVP), monomer (AMPS), and crosslinker (EGDMA). Carboxymethyl cellulose (CMC) was crosslinked chemically with AMPS with a constant ratio of PVP by the ethylene glycol dimethacrylate as the crosslinker in the presence of sodium hydrogen sulfite (SHS)/ammonium peroxodisulfate (APS) as initiators. After developing CMC-based hydrogels using different polymers, monomer, and crosslinker concentrations, this study encompassed dynamic swelling, sol–gel fraction, drug release and chemical characterizations such as FTIR, XRD, TGA, DSC, and SEM. In vitro drug release and swelling were performed at 1.2 and 6.8 pH to determine the sustained release pattern and pH-responsive behavior. These parameters depended on the crosslinker, polymer, and monomer ratios used in the formulation development. XRD, SEM, and FTIR showed the successful grafting of constituents resulting in the formation of a stable hydrogel. DSC and TGA confirmed the thermodynamic stability of the hydrogel. Hydrogel swelling was increased with an increase in the ratio of monomer; however, an increase in the ratio of polymer and crosslinker decreased the hydrogel swelling. In vitro gel fraction and drug release also depended on polymer, monomer, and crosslinker ratios. The fabricated CMC/PVP-co-poly (AMPS) hydrogels constituted a potential system for sustained drug delivery.     

羧甲基壳聚糖水凝胶制备及其在药物控释中的应用

以戊二醛为交联剂制备了一系列羧甲基壳聚糖pH敏感水凝胶 .研究了合成条件对羧甲基壳聚糖水凝胶溶胀性能的影响 .实验结果表明羧甲基壳聚糖的脱乙酰度、交联剂用量对水凝胶溶胀率的影响较大 .pH=3 0时 ,水凝胶收缩 ,而pH =1 0 ,5 0 ,7 4 ,9 0时 ,水凝胶溶胀 ,且在碱性条件下水凝胶的溶胀率远大于酸性条件下的溶胀率 .包埋在此水凝胶中的水杨酸释放随载药介质的pH值和水凝胶半径大小的变化而显著不同 ,pH =1 0条件下载药的水凝胶的释药率大于pH =7 4 ,12 0条件下的释药率 ,且水凝胶的半径越大 ,释药速度和释药率也越大